Title :
Silicon on thin BOX: a new paradigm of the CMOSFET for low-power high-performance application featuring wide-range back-bias control
Author :
Tsuchiya, R. ; Horiuchi, M. ; Kimura, S. ; Yamaoka, M. ; Kawahara, T. ; Maegawa, S. ; Ipposhi, T. ; Ohji, Y. ; Matsuoka, H.
Author_Institution :
Central Res. Lab., Hitachi, Ltd., Tokyo, Japan
Abstract :
We demonstrate a new MOSFET on ultra-thin BOX that allows wide-range back-bias control in low-power and high-performance applications. The back gate is effective not only to increase the drive current by about 20% in active mode but also in reduce the off-current by an order of magnitude in stand-by mode. We have also demonstrated tunable-threshold-voltage technology for devices with metal gates and ion implantation for Vth control. The target Vth for low-power applications was achieved by using ion implantation for Vth control. We propose a 6-transistor SRAM memory cell in which we obtain even more benefit from the new device structure by adding a feedback mechanism. A proposed 6-Tr SRAM memory cell is shown to dramatically improve SNM characteristics at the 65-nm technology nodes, and this effect will also apply at finer nodes.
Keywords :
MOSFET; SRAM chips; elemental semiconductors; ion implantation; low-power electronics; nanoelectronics; silicon; voltage control; 6-transistor SRAM memory cell; 65 nm; CMOSFET; SNM characteristics; Si; back gate; drive current; feedback mechanism; ion implantation; metal gates; off-current reduction; tunable-threshold-voltage technology; ultra-thin BOX; wide-range back-bias control; CMOS technology; CMOSFETs; Centralized control; Ion implantation; MOSFET circuits; Power MOSFET; Random access memory; Silicon; Threshold voltage; Voltage control;
Conference_Titel :
Electron Devices Meeting, 2004. IEDM Technical Digest. IEEE International
Print_ISBN :
0-7803-8684-1
DOI :
10.1109/IEDM.2004.1419245
